LAND COVER MAPPING OF VIETNAM USING MODIS 500M 32-DAY GLOBAL COMPOSITES Nguyen Dinh Duong Institute of Geography, VAST, 18 Hoang Quoc Viet Rd., Cau Giay, Hanoi, Vietnam Email: duong.nd@hn.vnn.vn ABSTRACT Land cover mapping based on high resolution satellite remote sensing data as Landsat TM, SPOT HRV etc has been widely used in practice However, due to low temporal resolution, these images not provide sufficient information on seasonal change characteristics of land cover that could cause misclassification and difficulties in post classification refining The new sensors such as TERRA MODIS, ENVISAT MERIS and ADEOS-II GLI with high temporal (revisit time is from to days) and spectral resolution are ideal data source for land cover mapping in global and regional scale In this paper, the author presents result on land cover mapping of Vietnam based on MODIS 500m 32-day global composite developed by the University of Maryland Land cover classification was carried out by the GASC algorithm which was developed by the author for multitemporal remote sensing data analysis Classification scheme is kept following IGBP standards As result, a land cover map of Vietnam for 2002 was established The classification result was validated using ground GPS photo database By combination of this land cover and geographic information some other derived results were created as inventory of land cover for whole country and its comparison with national statistical year book of 2002, forest cover and environment sensibility maps The paper has pointed out usefulness of usage of high temporal and medium spatial resolution remote sensing data for natural resource inventory and environment monitoring in country-wide, regional and global scale INTRODUCTION MODIS (Moderate Resolution Imaging Spectroradiometer) is one of the sensors onboard Terra and Aqua satellite This instrument belongs to moderate spatial resolution sensor group that consists of sensors such as ADEOS-II GLI , ENVISAT MERIS This is a class of sensors which are capable of observation of Earth surface and atmosphere in moderate spatial resolution, high spectral resolution with short revisit time Data provided by these sensors are extremely useful for environmental monitoring and natural resource management in global, regional and country-wide scale In this paper the author reports on application of MODIS dataset for land cover mapping in Vietnam This is the first attempt of using satellite data to monitor land cover in country-wide scale in Vietnam The analysis result has been compared with data in the official National Year Book released by the State Statistics Bureau MODIS 500M 32- DAY COMPOSITE MODIS 32-day composite is a product of Global Land Cover Facility, University of Maryland This product is derived from MODIS level surface reflectance product called MOD09A1 (8-day Surface Reflectance Composites) There are eleven composites for each International Symposium on Geoinformatics for Spatial Infrastructure Development in Earth and Allied Sciences 2004 Julian year from the first day to 360th day The last days of the year is included in the first period of the next year There are seven spectral channels included in the dataset which are listed in the Table Table Spectral channels of MODIS 32-day composite Channel Wavelength (nm) Description 620-670 Red 841-876 Near-infrared 459-479 Blue 545-565 Green 1230-1250 Short wave infrared 1628-1652 Short wave infrared:(similar to Landsat band 5) 2105-2155 Short wave infrared:(similar to Landsat band 7) Spatial resolution of the data is 500m for all channels On the figure is example of the dataset of Vietnam for the first four months of the year 2002 Color composite was made using channels assigned to red, to green and to blue Jan Feb Mar Apr Figure Example of cloud free MODIS composite of Vietnam Land Cover Mapping of Vietnam Using MODIS 32-day Global Composites The original data is in Goodes global projection To facilitate data integration among the MODIS and other GIS database, the MODIS dataset was reprojected into latitude and longitude grid and cut according to boundary of Vietnam GASC ALGORITHM FOR CLASSIFICATION OF LAND COVER GASC (Graphical Analysis of Spectral Reflectance Curve) algorithm is an algorithm developed by Nguyen Dinh Duong in the framework of ADEOS-II GLI Research Announcement for classification of land cover using multitemporal and multispectral remote sensing data (Nguyen Dinh Duong 1997) The nature of GASC algorithm is to find out spectral invariant that will help to easily classify land cover objects according to their spectral reflectance characteristics This method assumes that different land cover object will have different spectral reflectance pattern, that should be stable for certain remote sensing sensor with fixed observing spectral channel composition The image invariants used for classification are: modulation of the spectral reflectance curve, total reflected radiance index (Nguyen Dinh Duong 1998), channel ratios and ratios of difference to sum of radiance for all spectral channel pairs The GASC algorithm has been developed for both single date and multi-date dataset The multi-date GASC algorithm was applied for classification of MODIS 32-day composite Working principle of the GASC algorithm is shown on Figure Figure Principle of GASC algorithm for classification of land cover LAND COVER OF VIETNAM FOR THE YEAR 2002 International Symposium on Geoinformatics for Spatial Infrastructure Development in Earth and Allied Sciences 2004 The input data for classification of land cover is composed of: MODIS dataset of year 2002, ground truth database The ground truth database contains more than 5000 GPS photos collected in Vietnam since 1997 The Figure shows linkage between MODIS data and the ground truth database The database is used for land cover category sampling Fifteen classes according to IGBP standard have been defined: close evergreen broad leave forest, open evergreen broad leave forest, broad leave Figure Ground truth database and GPS photos deciduous forest, coniferous forest, mangrove, shrub, grass land, grass wetland, mosaic, agricultural land, one crop agricultural land, bare land, sandy surface, wetland and water body The figure shows land cover map of Vietnam for year 2002 The map has been established by the described methodology and validated by using high resolution satellite image as Landsat TM and field GPS photos 50 points have been selected for validation among them 43 points were in good accordance between the map and the field, points did not match up The accuracy of the classification could be estimated around 85% This land cover map is the first country-wide one established by satellite data or another words by direct observation so it reflects objectively physical status of the land cover Up to now in Vietnam the land cover map in country scale is created based on data provided by local governments (from district level) There was almost no way to verify the data The author has tried to compare information on land cover derived from this map with data from National Statistical Year Book (NSYB) 2002 On the table is area of each land cover categories computed from the map On the figure is a graph showing comparison of forest area between MODIS data and NSYB 2002 In the NSYB there are only forest and non-forest area, so the Figure Land cover of Vietnam for categories: close evergreen broad leave forest, year2002 open evergreen broad leave forest, broad leave deciduous forest, coniferous forest, mangrove have been merged to one class forest area In general, the MODIS land cover data is in good agreement with data in NSYB 2002 There are some differences but for most provinces they are only in 10% which is generally accepted as accuracy of remote sensing classification (if NSYB is taken as reference) Land Cover Mapping of Vietnam Using MODIS 32-day Global Composites Table Land cover of Vietnam computed from MODIS dataset 2002 No Land cover category Area (ha) Percentage (%) Close evergreen broad leave forest 7351000 20.8 Open evergreen broad leave forest 3908800 11 Broad leave deciduous forest 1096725 3.1 Coniferous forest 167250 0.5 Mangrove 143250 0.4 Shrub 8247650 23.3 Grass land 1493575 4.2 Grass wetland 439875 1.2 Mosaic 3536075 10 10 Agricultural land 7642175 21.5 11 Bare land 132925 0.4 12 Sandy surface 138300 0.4 13 Wetland 425550 1.2 14 Water body 624025 1.8 Figure Comparison of forest area for each provinces International Symposium on Geoinformatics for Spatial Infrastructure Development in Earth and Allied Sciences 2004 CONCLUSION AND DISCUSSION The research result is very positive since it pointed out possibility to establish independent methodology to monitor land cover from space The data derived from analysis of MODIS data is valuable for many environmental research including disaster mitigation and prevention The following conclusions have been made: - The moderate resolution remote sensing data provides large spatial coverage that is not possible in case of high spatial remote sensing data such as Landsat TM, SPOT etc The large spatial coverage enables to observe region or whole country in the same time, almost same atmospheric conditions which simplifies much data processing and analysis - The spatial resolution 250m is good enough for environmental research in macroscopic level since it enables mapping in 1:500,000 scale For this scale the qualitative analysis is more important than quantitative one - Recently the NOAA data has been widely used for global and regional environmental monitoring However, due to low spatial and spectral resolution, it was difficult for application in country-level natural resource management The MODIS data with two channels with 250m and five channels with 500m resolution specially designed for land observation has overcame the NOAA data and it is getting used operationally - In the past, to accomplish coverage of high spatial resolution remote sensing data of Vietnam it is needed a little bit long time (probably several years) due to cloud coverage so application of remote sensing in country-wide scale is some time difficult The MODIS data is available in short revisit time (2 to days) is offering possibility to create cloud free composite which is essential for establishment of multitemporal dataset that is the most important for environment monitoring - The MODIS data is free on the Internet and receiving facility is also cheap in comparison with high spatial resolution remote sensing as SPOT, Landsat TM etc This advantage gives developing countries as Vietnam a chance to develop capacity in remote sensing technology with modest budget by themselves ACKNOWLEDGEMENT The author would like to thank all staff of EISA who have been actively involved in this research A part of budget used for conducting this research has been allocated from Basic Research Program so thanks also belong to the management board Specially the author would like to thank GLCF, University of Maryland for providing the data Without the effort of University of Maryland the research could not be accomplished REFERENCES Nguyen Dinh Duong, 1997 Graphical Analysis of Spectral Reflectance Curve Proceedings of the 18th Asian Conference on Remote Sensing, Kuala Lumpur, Malaysia Nguyen Dinh Duong, 1998 Total Reflected Radiance Index- An Index to Support Land Cover Classification Proceedings of the 19th Asian Conference on Remote Sensing, Manila, Philippines Land Cover Mapping of Vietnam Using MODIS 32-day Global Composites ... NSYB is taken as reference) Land Cover Mapping of Vietnam Using MODIS 32-day Global Composites Table Land cover of Vietnam computed from MODIS dataset 2002 No Land cover category Area (ha) Percentage... classification of MODIS 32-day composite Working principle of the GASC algorithm is shown on Figure Figure Principle of GASC algorithm for classification of land cover LAND COVER OF VIETNAM FOR... months of the year 2002 Color composite was made using channels assigned to red, to green and to blue Jan Feb Mar Apr Figure Example of cloud free MODIS composite of Vietnam Land Cover Mapping of Vietnam